The linear momentum of a particle as a fuction of time 't' is given by , p = a +bt , where a and b are positive constants . What is the force acting on the particle ?

The linear momentum of a particle at time t is given by the equation P = x + yt^(2) , where x and y are constants. The instantaneous force acting on the particle during its motion is .....

Linear momentum of a particle given by relation p = a + b t^(2) , where a, b are constant and t is time, then force acting on particle is ………..

The position of a particle as a function of time t, is given by x(t)=at+bt^(2)-ct^(3) where a,b and c are constants. When the particle attains zero acceleration, then its velocity will be :

The linear momentum of a body varies with time as p= alpha + beta t^2 where alpha and beta are constants .The net force acting on the body is proportional to :

If the velocity of a particle "v" as a function of time "t" is given by the equation,v=a(1-e^(-bt) ,where a and b are constants,then the dimension of the quantity a^2*b^3 will be